Process Design and Assessment Tools for Sustainable Biorefinery

A special issue of Processes (ISSN 2227-9717). This special issue belongs to the section "Sustainable Processes".

Deadline for manuscript submissions: closed (30 June 2024) | Viewed by 2586

Special Issue Editors


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Guest Editor
Department of Chemical, Environmental and Materials Engineering, University of Jaén, Jaen, Spain
Interests: sustainable engineering; life-cycle thinking; climate change; process systems engineering; renewable energy systems

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Guest Editor
Department of Chemical, Environmental and Materials Engineering, Universidad de Jaén, Campus Las Lagunillas, 23071 Jaén, Spain
Interests: biomass; bioactive compounds; bioenergy; green technology extraction; biorefinery
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Special Issue Information

Dear Colleagues,

Biomass will play a vital role in transitioning to a circular economy, which is an integral strategy to attain the Sustainable Development Goals (SDGs). Biomass resources such as agricultural and forestry residues, food wastes, or dedicated energy crops can be used as feedstocks within biorefinery schemes. At biorefineries, different thermochemical and biochemical processes allow the conversion of biomasses into valuable products such as biofuels, bioenergy, and other platform and specialty biochemicals. These bio-based products can replace other fossil-based products in the economy, potentially providing environmental benefits across different sectors.

This Special Issue aims to collect innovative research on state-of-the-art technologies, novel processes, and assessment tools to support the deployment of sustainable biorefineries. We welcome the submission of articles and reviews on topics including, but not limited to:

  • Valorization of biomass using green solvents.
  • Design of biorefining processes for energy, fuels, and platform chemicals.
  • Innovative techniques (e.g., green chemistry) for the extraction, separation and purification of bioactive compounds.
  • Characterization of extracts and the identification and potential uses of bioactive compounds.
  • Cascading biorefinery strategies for the integral valorization of biomass resources.
  • Techno-economic and environmental analysis of bio-based production systems.

Dr. Ángel Galán Martín
Dr. Irene Gómez Cruz
Guest Editors

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Keywords

  • biomass processing
  • biorefinery
  • biomass supply chain
  • circular economy
  • process design and optimization
  • bioenergy
  • biofuels
  • sustainability
  • techno-economic assessment
  • life-cycle assessment

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Published Papers (1 paper)

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Research

13 pages, 2290 KiB  
Article
Process Design and Assessment of the Performance of Three Macrophytes in a Biorefinery Polishing Partly Treated Sewage in Novel SHEFROL Bioreactors
by Tabassum -Abbasi, Pratiksha Patnaik and S. A. Abbasi
Processes 2022, 10(11), 2350; https://doi.org/10.3390/pr10112350 - 10 Nov 2022
Cited by 2 | Viewed by 1580
Abstract
The development of a biorefinery is described based on rapid polishing of partially treated sewage with three different species of macrophytes in the recently developed SHEFROL® bioreactor which functions almost entirely on solar and gravitational energy, requiring no chemicals. It was seen [...] Read more.
The development of a biorefinery is described based on rapid polishing of partially treated sewage with three different species of macrophytes in the recently developed SHEFROL® bioreactor which functions almost entirely on solar and gravitational energy, requiring no chemicals. It was seen that at a hydraulic retention time (HRT) of just 2 h, suspended solids, COD, BOD, total Kjeldahl nitrogen, soluble phosphorus, zinc, copper, nickel, and manganese are reduced to the extents of 92–95%, 76–78%, 77–81%, 56–61%, 60–66%, 43–46%, 45–48%, 30–35%, and 31–33%, respectively. The treated water meets the water quality standards set for the discharge into surface water bodies. M. quadrifolia was seen to be most effective of the three macrophytes, followed by P. stratiotes and S. molesta, as a sewage cleansing agent, but the difference in the performance of the macrophytes was only marginal, and not highly significant statistically (p ≥ 0.5). The paper also shows that it is possible to extract energy precursors in the form of volatile fatty acids (VFAs) from the harvested macrophyte biomass and then convert the biomass into organic fertiliser. All the steps associated with the closed loop circular biorefinery occur at ambient temperatures and pressures, requiring little consumption of energy and materials, and leaving negligible footprints. Full article
(This article belongs to the Special Issue Process Design and Assessment Tools for Sustainable Biorefinery)
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